Difference between revisions of "022 Exam 1 Sample A, Problem 2"

Revision as of 21:49, 31 March 2015

2. Use implicit differentiation to find $dy/dx$ at the point $(1,0)$ on the curve defined by $x^{3}-y^{3}-y=x$ .

Foundations:
When we use implicit differentiation, we combine the chain rule with the fact that $y$ is a function of $x$ , and could really be written as $y(x).$ Because of this, the derivative of $y^{3}$ with respect to $x$ requires the chain rule, so
${\frac {d}{dx}}\left(y^{3}\right)=3y^{2}\cdot {\frac {dy}{dt}}.$

Solution:

Step 1:
First, we differentiate each term separately with respect to $x$ to find that $x^{3}-y^{3}-y=x$ differentiates implicitly to
$3x^{2}-3y^{2}\cdot {\frac {dy}{dx}}-{\frac {dy}{dx}}=1$ .

Step 2:
Since they don't ask for a general expression of $dy/dx$ , but rather a particular value at a particular point, we can plug in the values $x=1$ and $y=0$ to find
$3(1)^{2}-3(0)^{2}\cdot {\frac {dy}{dx}}-{\frac {dy}{dx}}=1,$
which is equivalent to $3-{\frac {dy}{dx}}=1$ . This solves to $dy/dx=2.$

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 !Step 1: &nbsp;
 |-
-|First, we differentiate each term separately with respect to x to find that&thinsp; <math style="vertical-align: -18%">x^{3}-y^{3}-y=x</math> &thinsp;differentiates implicitly to
+|First, we differentiate each term separately with respect to <math style="vertical-align: 0%">x</math> to find that&thinsp; <math style="vertical-align: -18%">x^{3}-y^{3}-y=x</math> &thinsp;differentiates implicitly to
 |-
 |&nbsp;&nbsp;&nbsp;&nbsp; <math>3x^{2}-3y^{2}\cdot\frac{dy}{dx}-\frac{dy}{dx}=1</math>.